Answer:
The torque was 108 N m
Explanation:
Torque is the cross product between the vector position where the force is applied with respect the axis of rotation and the force applied:
[tex]\overrightarrow{\tau}=\overrightarrow{r}\times\overrightarrow{F} [/tex]
The magnitude is:
[tex]\tau =rF\sin \theta [/tex]
If the force is applied on an extreme of the lever, the hinge is in the other extreme and the applied force is perpendicular to the lever:
[tex]r=4m [/tex], [tex]F=27N [/tex], [tex]\theta=90 Celcius [/tex]
So:
[tex]\tau=(4m)(27N)\sin (90)=(108Nm)(1) [/tex]
[tex]\tau=108 Nm [/tex]
Answer: Torque T = 108 Nm
Explanation:
Torque or turning effect is the rotational equivalent of linear force, i.e moment of force about a point.
Given that the force is applied perpendicular to the edge (angle 90°)
Torque can be represented by T;
T = FrSin∅ = Fr ( sin90 = 1)
T = force × distance
T = F × r
F = 27N
r = 4m
T = 27N × 4m
T = 108 Nm
